Background Stroke is caused by the interruption of blood flow to the brain (ischemic stroke)
or the rupture of blood vessels within the brain (hemorrhagic stroke) and may lead to …

Background and Purpose: A number of studies have suggested that imagery training (motor
imagery [MI]) has value for improving motor function in persons with neurologic conditions …

Rehabilitation for stroke patients with severe motor impairments is burdensome and
demanding because most of the current rehabilitation options require some volitional …

Background Technologies such as brain‐computer interfaces are able to guide mental
practice, in particular motor imagery performance, to promote recovery in stroke patients, as …

Motor imagery (MI), defined as the mental implementation of an action in the absence of
movement or muscle activation, is a rehabilitation technique that offers a means to replace …

Motor imagery (MI)-based brain–computer interfaces (BCI) have shown increased potential
for the rehabilitation of stroke patients; nonetheless, their implementation in clinical practice …

Objective To investigate the effects of various rehabilitative interventions aimed at
enhancing poststroke motor recovery by assessing their effectiveness when compared with …

Objective This study aimed to evaluate the effects of motor imagery (MI) on walking function
and balance in patients after stroke. Methods Related randomized controlled trials (RCTs) …

OBJECTIVE: Evaluate the effectiveness of MI combined with physical practice in improving
the function of the upper limbs in children with HCP. METHOD: Twenty-four participants …

Objective To compare virtual reality (VR) combined with functional electrical stimulation
(FES) with cyclic FES for improving upper extremity function and health-related quality of life …